RU2265852C2 - Method for detecting cardiac coronary reserve - Google Patents

Abstract

FIELD: medicine, cardiology.

SUBSTANCE: the present innovation deals with techniques of functional diagnostics in clinical physiology. Cardiac coronary reserve should be detected based upon applying functional interrelations between systemic circulation and coronary circulation. For this purpose it is necessary to measure patient's body weight, total oxygen intake by a patient, saturation with oxygen and hemoglobin concentration in blood samples taken out of an artery, out of right-hand atrium or right-hand ventricle, out of coronary sinus. It should be calculated depending upon hemoglobin concentration value in blood samples. The innovation suggested could be applied for prognostic evaluating the state of human cardiac activity, both in healthy persons and in patients with cardio-vascular pathology.

EFFECT: higher efficiency of detection.

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Description

The invention relates to medicine, namely to methods of functional diagnostics in clinical physiology for prognostic assessment of the state of human cardiac activity, healthy and with cardiovascular pathology.

In humans and animals, the value of coronary blood flow (QC) is 4-5% of the minute volume of blood circulation (IOC) at rest and during exercise. [B. Folkov, Neil E. Blood circulation (Transl. From English). - M .: Medicine, 1976 - 464 p. (p. 15)]. An increase in coronary blood flow in this proportion occurs due to the autoregulatory mechanism (otherwise called the metabolic automaton of the heart). It is considered as the main component of the coronary reserve. Adenosine, which is a derivative of adenine nucleotide (AMP residue), is considered as an active agent in this mechanism. An increase in coronary blood flow by a metabolic automaton is a natural physiological mechanism. Therefore, the real reserve of QC is an increase in its share in the IOC due to an increase in the arteriovenous oxygen difference in the coronary channel by 10-20% or an increase in oxygen extraction from 74% at rest to 85% by the end of the heavy load. [Feigel E.O. Coronary Physiologyf / PhyswIogicat Rev. - 1983 .-- V.63. - No. 1. - P.1 - 205 (p. 149-152)].

The use of full-blown physical activity cannot be used as a standard procedure for assessing coronary reserve. A more acceptable procedure for this purpose was proposed using digital computational angiography of the dilated papaverine bed of the coronary arteries [Cusma J.T., Toggart E.J., Folts J.D. et al. Digital subtraction angiographic imaging of coronary flow reserve / I Circulation.-1987-V.75.-P.461]. However, the use of papaverine in combination with the use of sophisticated x-ray and computer technology also makes this procedure both expensive and inaccessible.

The above methods for assessing the coronary reserve for their use require either burdensome procedures (physical activity), or cumbersome procedures for measuring coronary blood flow using the Kety-Schmidt method using nitrous oxide, or highly active pharmacological preparations such as papaverine and peridamol and the use of complex computing and x-ray techniques. For these reasons, the assessment of coronary reserve is not a widely used measurement in clinical physiology, while the need for such measurements for clinical use exists.

The traditional assessment of the coronary reserve (4-5% of the IOC) mentioned above is not correct, since it is obtained as a result of the metabolic automaton of the heart. In this case, there is no reason to argue for an increase in coronary blood flow, since its share in the IOC remains the same. Therefore, increased coronary blood flow should be considered if its share in the IOC increases by more than one percent.

In an analytical form, coronary blood flow (CC), expressed as a percentage of IOC (CC _{% IC} ), is given by a simple equation -

where PO _2s - oxygen consumption by the heart, ml / min; ON _{2 GENERAL} - oxygen consumption by the whole organism, ml / min; HB _BC - the concentration of hemoglobin in a large circle of blood circulation, g / l; 1.355 - Guffner's constant, the amount of oxygen bound by a gram of HB, ml / g; НВО _2А - saturation of arterial blood with oxygen,%; НВО _2в - oxygen saturation of mixed venous blood of a large circle,%; HB _KS - hemoglobin content in the blood of the coronary sinus, g / l; НВО _2KS - saturation of blood oxygen from the coronary sinus,%. For a healthy person, the oxygen consumption of the heart is calculated by the equations for men -

and for women -

[Vlasov Yu.A., Okuneva G.N. and others. The relationship between the specific oxygen consumption of the myocardium and its mass in a healthy person and patients with heart diseases Human physiology. - 1995. - T. 21. - No. 4. - S. 92-99. (p. 94)]. For patients with cardiovascular pathology, PO _{2c is} calculated by other formulas [Vlasov Yu.A., Okuneva G.N. Specific myocardial oxygen consumption in patients with congenital and acquired heart defects // Human Physiology. - 2003. - T.29. - No. 2. - S.133-137 (table 1)].

For men with congenital heart defects of the pale type (CHD) -

For men with congenital heart disease of the cyanotic type (VPSTST) -

For men with acquired heart disease (PPP) -

For women with CHF

Для женщин и ВПСЦТ -

For women and VVTsTT -

Для женщин с ППС -

For women with faculty -

The magnitude of myocardial mass is calculated by the patient’s body weight.

For men with CHD

For men with VPSTST

For men with PPP -

For women with CHF -

Для женщин с ВПСЦТ -

For women with APSTT -

For women with faculty -

The obtained value of PO _2s according to the equations - [2-17] has a dimension μl / (g · h) and reflects the value PO _2c in the ground state without contractions, which is 27-30% of the value of the active state with heart contractions. Recalculation of the calculated value of П0 _2с into the value for the working heart is carried out according to the formula -

The resulting value has a dimension of ml / min for the whole heart.

If the HB content in mixed venous blood of the great circle and in the blood from the coronary sinus is the same, then

In the case when the content of HB in the large circle of blood circulation and the coronary sinus and the equal saturation with oxygen of both mixed venous blood of the big circle and blood from the coronary sinus is equal, then

This corresponds to the maximum possible increase in the proportion of coronary blood flow in the IOC. Since under normal and pathological conditions, the proportion of oxygen consumed by the heart in oxygen consumption by the whole body varies within a narrow range from 10 to 16%, it is up to this value that the proportion of coronary blood flow in the total IOC can increase. This will be the maximum value of coronary blood flow. [Vlasov Yu.A., Okuneva G.N. Blood circulation and gas exchange of a person. Reference guide. Novosibirsk: Nauka, 1992 - 320 p. (p. 110; tab. 49); Litasova E.E., Vlasov Yu.A., Okuneva G.N. et al. Clinical physiology of artificial hypothermia. Novosibirsk: Nauka, 1997 - 564 p. (p. 224-225; tab. 66)].

The difference between the maximum and the usual value of KK _{% IOC} corresponds to the reservoir for increasing coronary blood flow -

The aim of the invention is the determination of the coronary reserve of the heart by using the functional interdependencies between the pulmonary circulation and the coronary circulation.

The method is as follows.

1. First, body weight, total oxygen consumption on an oxyspirograph in a patient in a state of basic metabolism are measured.

2. In the diagnostic sounding of the heart and large major vessels, blood samples are taken for gas analysis from an artery (or aorta), from the right atrium or right ventricle, and from the coronary sinus. They measure the hemoglobin content, oxygen content or blood oxygen saturation in percent.

3. Compare the measured values of the concentration of hemoglobin in samples of mixed venous blood (from the right atrium, right ventricle) and in the blood from the coronary sinus. If the concentration of HB in mixed venous blood is ≤150 g / l, then the HB content in mixed venous blood and in the blood of the coronary sinus can be considered the same, and for calculations use equation [26], otherwise the HB content is different, and for calculations it is necessary use only equation [1].

4. For healthy individuals, PO _{2c is} calculated according to the equations [2-5] and reduced to the ml / min dimension according to the equation [25], and the KK _{% mok} calculations are performed according to the equations [1] or [26] depending on the concentration of HB in mixed venous blood and blood from the coronary sinus.

5. For patients with heart defects, the heart mass is first calculated by the patient’s body weight according to the equations [18-24], while the heart mass is expressed in kg. Then, according to the equations [6-17], the PO _2c value is calculated and according to the equation [25] it is reduced to the ml / min dimension, and the calculation of the KK _{% mock is} performed according to the equations [1] or [25] depending on the HB content in the mixed venous blood.

6. According to equation [27], the maximum share of myocardial O ₂ consumption in the total body consumption is calculated.

7. According to equation [28] calculate the value of the coronary reserve of the heart.

Examples.

Table 1
The concentration of hemoglobin in the artery is less than 150 g / l Age Weight Height, Blood Saturation O ₂ Hemoglobin, g / l General
ON ₂ ON ₂
heart. Coronarn reserve,% Dr. Full name Paul Years old body kg CM arter. vein The cop arter The cop ml / min ml / min Ko Ao O-s husband 7 28 127 0.96 0.74 0.26 110 100.6 157.32 54,4 23,71145 DMPP A-va wives eighteen 74 173 0.96 0.87 0.35 123 120,4 254.1 38.09 12.7785 DMPP Peninsula wives 12 27 130 0.94 0.705 0.386 130 131 166.5 28.66 9,911579 DMPP + Klsla L-in husband 7 21.5 125 0.99 0.75 0.3 119 114.3 140,4 30.5 14,1676 DMSP + Klsla Bn husband thirteen 37 147 0.942 0.855 0.332 126 125 210.6 40.6 16,52873 Ave. St. L-in husband 34 73,4 171 0.96 0.77 0.408 143 150.7 244.8 70.8 18,96668 Ao St. I am husband 57 54 157 0.893 0.654 0.446 143 150.8 186.6 69.1 17.23147

table 2
The concentration of hemoglobin in the artery is more than 150 g / l Ko Ao Ah husband 32 63 165 0.95 0.76 0.53 170 191 222.7 63.9 17.14016 U.Zhel K-Agen 8 21.5 124 0.893 0.671 0.444 194 228.2 128 49.9 22.59798 Ed.zhel Ma wives fifteen 65 168 0.889 0.635 0.385 172 194.8 234 67.1 15,91525 Tetr. Fallot Mr. husband 5 16.8 107.5 0.855 0.691 0.348 158.1 173.7 116.9 36.7 22.15121 Tetr. Fallot I-in husband thirty 60 163 0.81 0.63 0.383 171 193.2 217.9 89.1 25,63385

The method allows to assess the coronary reserve of a person.

Claims (1)

A method for determining the coronary reserve of the heart, characterized in that the body weight, the total oxygen consumption of the patient are measured, blood samples are taken during probing from the artery, from the right atrium or right ventricle, from the coronary sinus, oxygen saturation and hemoglobin concentration are measured in them, if the concentration hemoglobin in the blood exceeds 150 g / l, then the coronary reserve of the heart (RKK) is calculated by the formula RCM = _(2C ON / ON _2OBSCH) - _((2S PO / PO _2OBSCH) × ((HB _BK × 1,355 (IEE _2A - - HBO _2B )) / (HB _KS × 1.355 (HBO _{2A -} HBO _2KS ))), if the concentration of hemoglobin in blood samples ≤150 g / l, then the coronary reserve of the heart is determined by the formula RCM = _(2C ON / ON _2OBSCH) - _((2S PO / PO _2OBSCH) × ((IEE _2A - _2B IEE) / (IEE _2A -NvO _2KS)), where PO _2C is the oxygen consumption of the heart, which is calculated based on the patient’s body weight, taking into account his gender and the presence of cardiovascular pathology; ON _{2 GENERAL} - oxygen consumption by the whole organism; HB _BC - the concentration of hemoglobin in a large circle of blood circulation; HBO _2A - saturation of arterial blood with oxygen; HBO _2B - oxygen saturation of mixed venous blood of a large circle; HB _KS - hemoglobin content in the blood of the coronary sinus; HBO _2KS - oxygen saturation of the blood from the coronary sinus.